Abstract
Recently, a variety of positioning and tracking methods have been proposed for capsule robots moving in the gastrointestinal (GI) tract to provide real-time unobstructed spatial pose results. However, the current absolute position-based result cannot match the GI structure due to its unstructured environment. To overcome this disadvantage and provide a proper position description method to match the GI tract, we here present a relative position estimation method for tracking the capsule robot, which uses the moving distance of the robot along the GI tract to indicate the position result. The procedure of the proposed method is as follows: firstly, the absolute position results of the capsule robot are obtained with the magnetic tracking method; then, the moving status of the robot along the GI tract is determined according to the moving direction; and finally, the movement trajectory of the capsule robot is fitted with the Bézier curve, where the moving distance can then be evaluated using the integral method. Compared to state-of-the-art capsule tracking methods, the proposed method can directly help to guide medical instruments by providing physicians the insertion distance in patients’ bodies, which cannot be done based on absolute position results. Moreover, as relative distance information was used, no reference tracking objects needed to be mounted onto the human body. The experimental results prove that the proposed method achieves a good distance estimation of the capsule robot moving in the simulation platform.
Highlights
According to a report of the World Health Organization (WHO), cancer is considered as the leading cause of death worldwide [1], accounting for the deaths of nearly 10 million people every year.In terms of mortality, colorectal cancer (CRC) is the third highest among all cancers, and the number of deaths were about 774,000 in 2015
Due to the above advantages, the magnetic tracking method was used for the absolute positioning of wireless capsule robots in this paper
The problem of evaluating the distance of a capsule robot relative to a marker point based on the absolute position of the space with squirming of the GI is necessary for medial surgery, but has not been well-solved
Summary
According to a report of the World Health Organization (WHO), cancer is considered as the leading cause of death worldwide [1], accounting for the deaths of nearly 10 million people every year. By using additional tracking objects mounted on the human body to serve as tracking references, these methods can transform the capsule position results into the body coordinates This method can eliminate the tracking error caused by the relative movement between the human body and the tracking sensor array. None of the above methods consider that the peristaltic process of the intestine causes a short retrospective process of the robot To overcome this problem and provide a proper position description method to match the GI tract, we here propose a relative position method for tracking the movement of a capsule robot in the GI tract. Compared to state-of-the-art capsule tracking methods, the proposed method can directly help guide medical instruments by providing physicians the insertion distance in patients’ bodies, which cannot be done based on position results of absolute coordinates.
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